CN112030524A

CN112030524A - Textile fabric processing is with crushed aggregates recovery unit

Info

Publication number: CN112030524A
Application number: CN202010940885.9A
Authority: CN
Inventors: 不公告发明人
Original assignee: Anfu Fengqi Technology Co ltd
Current assignee: Anfu Fengqi Technology Co ltd
Priority date: 2020-09-09
Filing date: 2020-09-09
Publication date: 2020-12-04

Abstract

The invention relates to the technical field of crushed material recovery in textile processing, in particular to a crushed material recovery device for textile fabric processing, which comprises a left support and a right support, wherein a group of transversely extending driving supports are symmetrically arranged on the front side and the rear side of the upper ends of the left support and the right support, and buffer supports are vertically and upwards arranged at the lower ends of the left support and the right support, and the device has the advantages that: according to the invention, the screen drums are arranged in bilateral symmetry, so that the crushed aggregates are rotated and shaken through the centrifugal rotation of the drums, and the dust and the fiber line bodies which are shaken and suspended in the inner cavity of the screen are adsorbed and cleaned by matching with daughter-in-law adsorption of the dust collection plate, thereby greatly improving the quality and cleanness of the recovered excess aggregates and facilitating the use and treatment after recovery; through the installation of the rotary drum grafting that sets up the disconnect-type to the feeding of being convenient for, cooperation driving motor's rotation and the rotation installation of rotary drum, thereby realize the rotary drum to retrieving the frame slope, realize quick convenient the recovery of unloading.

Description

Textile fabric processing is with crushed aggregates recovery unit

Technical Field

The invention relates to the technical field of scrap recovery in textile processing, in particular to a scrap recovery device for textile fabric processing.

Background

In the textile processing process, the cloth needs to be cut, and in the cutting process, the leftover bits and pieces are usually placed in the recovery frame, and the larger cutting leftover bits and pieces are reused.

Therefore remaining crushed aggregates of textile processing, the area is less, and the end of a thread is more, piles up after need a large amount of processing production usually, then unified processing, nevertheless because retrieve the frame opening setting, the accumulation time is longer, and fibre and dust content are higher in the weaving workshop to lead to remaining a large amount of fibre ends of a thread and dust in the leftover bits of retrieving, be unfavorable for direct recycle.

Therefore, the crushed material recovery device for textile fabric processing is provided, and the problem of recovering and cleaning accumulated residual materials is solved.

Disclosure of Invention

The invention aims to provide a scrap recovery device for textile fabric processing, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a crushed material recovery device for textile fabric processing comprises a left support and a right support, wherein a group of transversely extending driving supports are symmetrically arranged on the front side and the rear side of the upper end of the left support and the right support, a buffering support is vertically and upwards mounted at the lower ends of the left support and the right support, a fixed base is vertically mounted on the lower end face of the left support, a pair of moving rollers which are bilaterally symmetrical is arranged at the lower end of the right support, a first rotary drum is arranged in the middle of the driving support at the upper end of the left support, a second rotary drum is mounted in the middle of the driving support at the upper end of the right support, a second cylindrical screen is sleeved in an inner cavity of the first rotary drum, a dust collection plate is arranged on the left side of the inner cavity of the first rotary drum, an air pump is arranged on the left side of the first rotary drum, suction heads which are distributed in a multilayer circumferential array, a centrifugal motor is arranged on the right side of the second rotary drum, the right side of the rotary plate is rotatably connected with a motor rotating shaft of the centrifugal motor, and a first cylindrical screen is transversely and fixedly welded on the left side of the rotary plate;

the buffering support is located first rotary drum, second rotary drum under, and the upper end of buffering support is provided with the backing plate, the upper end of backing plate closely laminates at the lower extreme outer wall of first rotary drum, second rotary drum, and the lower terminal surface left and right sides symmetry of backing plate is provided with a pair of free bearing, the vertical downwardly rotating of lower extreme of free bearing installs the jib, the lower extreme of jib runs through the upper end diaphragm of buffering support and extends to the below of diaphragm, and the interlude outer wall of jib has cup jointed the spring.

Preferably, the upper end of the driving support at the upper end of the left support is provided with a fixed block, the upper end of the driving support at the upper end of the right support is provided with a pair of front and back symmetrical slide blocks, the fixed block is transversely provided with a pair of front and back symmetrical guide rods, and the slide blocks are inserted into the outer walls of the guide rods in a sliding manner.

Preferably, a gap is reserved between the second cylindrical screen and the inner wall of the first rotary drum, a rotary ring is arranged on the left side of the second cylindrical screen, and the rotary ring is rotatably arranged on the right end face of the dust collection plate.

Preferably, the front end of the driving support is provided with a driving motor, the outer walls of the front side and the rear side of the first rotating drum and the outer walls of the second rotating drum are respectively rotatably installed on a pair of driving supports which are bilaterally symmetrical, and the front ends of the first rotating drum and the second rotating drum are rotatably connected with the driving motor.

Preferably, the left side of first cylinder screen cloth is provided with the snap ring, the right side terminal surface of second cylinder screen cloth is provided with the draw-in groove, snap ring extrusion joint is in the inner chamber of draw-in groove.

Preferably, the front and rear end faces of the first rotary drum are fixedly welded on the right side with a pair of second lug seats, the front and rear end faces of the second rotary drum are fixedly welded on the left side with a first lug seat corresponding to the second lug seats, a screw rod is transversely arranged on the first lug seat and is inserted into the second lug seats, and the screw rod and the second lug seats are fixedly connected through nuts in an extruding manner.

Preferably, a recycling frame is arranged at the lower end between the left support and the right support, the recycling frame is located right below the connecting position of the first rotating cylinder and the second rotating cylinder, and the upper end face of the recycling frame is located at the lower end of the buffering support.

Preferably, the spring is vertically installed between the base plate and the buffer support, the upper end of the spring abuts against the lower end face of the base plate, and the lower end of the spring abuts against the upper end face of the buffer support.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the screen drums are arranged in bilateral symmetry, so that the crushed aggregates are rotated and shaken through the centrifugal rotation of the drums, and the dust and the fiber line bodies which are shaken and suspended in the inner cavity of the screen are adsorbed and cleaned by matching with daughter-in-law adsorption of the dust collection plate, thereby greatly improving the quality and cleanness of the recovered excess aggregates and facilitating the use and treatment after recovery;

2. the rotary drum is inserted and installed in a separated mode, so that feeding is facilitated, the rotary drum is installed in a rotating mode through the rotation of the driving motor and the rotation of the rotary drum, the rotary drum is inclined towards the recovery frame, unloading recovery is achieved quickly and conveniently, meanwhile, the buffer of the buffer support is utilized, support is provided for the rotation of the rotary drum, the rotary drum is prevented from being excessively inclined, and the unloading and feeding stability of the device is greatly improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the inclined discharge structure of the present invention;

FIG. 3 is a front view of the present invention;

fig. 4 is a schematic view of the left bracket structure of the present invention.

In the figure: 1. a left bracket; 2. a right bracket; 3. a buffer bracket; 4. a drive bracket; 5. a first rotating drum; 6. a second rotating drum; 7. a fixed block; 8. a slider; 9. a base plate; 10. a centrifugal motor; 11. a first cylindrical screen; 12. a second cylindrical screen; 13. a dust collection plate; 14. rotating the plate; 15. an air pump; 16. rotating the ring; 17. a suction head; 18. a card slot; 19. a snap ring; 20. a guide bar; 21. a fixed base; 22. moving the roller; 23. a recovery frame; 24. a boom; 25. hinging seat; 26. a spring; 27. a drive motor; 28. a first ear mount; 29. a screw; 30. a second ear mount.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution:

the utility model provides a textile fabric processing is with crushed aggregates recovery unit, includes left socle 1 and right branch frame 2, and the equal symmetry in both sides is provided with a set of horizontal extension's drive support 4 around the upper end of left socle 1 and right branch frame 2, and the equal vertical upwards installation of lower extreme of left socle 1 and right branch frame 2 has buffering support 3.

The upper end of a driving support 4 at the upper end of the left support 1 is provided with a fixed block 7, the upper end of the driving support 4 at the upper end of the right support 2 is provided with symmetrical slide blocks 8, the fixed block 7 is transversely provided with a pair of symmetrical guide rods 20, the slide blocks 8 are inserted into the outer walls of the guide rods 20 in a sliding mode, and the slide blocks 8 are inserted into the guide rods 20 in a sliding mode to achieve sliding connection between the left support 1 and the right support 2.

The lower terminal surface of left socle 1 is vertical installs unable adjustment base 21, and the lower extreme of right branch frame 2 is provided with a pair of removal gyro wheel 22 of bilateral symmetry, utilizes removal gyro wheel 22 to realize the horizontal slip of right branch frame 2, and the cooperation guide bar 20 realizes steady lateral sliding.

Be provided with first rotary drum 5 in the middle of the drive support 4 of 1 upper end of left socle, second rotary drum 6 is installed in the middle of 2 upper end drive supports 4 of right branch frame, second cylinder screen cloth 12 has been cup jointed to the inner chamber of first rotary drum 5, the inner chamber right side of second rotary drum 6 is provided with changes board 14, the right side of second rotary drum 6 is provided with centrifugal motor 10, the right side of changing board 14 rotates with centrifugal motor 10's motor shaft and is connected, the horizontal fixed welding in left side of changing board 14 has first cylinder screen cloth 11, utilize centrifugal motor 10 to drive and change board 14 and rotate, utilize and change board 14 to drive first cylinder screen cloth 11 and rotate.

A gap is reserved between the second cylindrical screen 12 and the inner wall of the first rotary drum 5, a rotary ring 16 is arranged on the left side of the second cylindrical screen 12, the rotary ring 16 is rotatably installed on the right end face of the dust collection plate 13, and transverse rotating installation on the left side of the second cylindrical screen 12 is achieved through the rotary ring 16.

First cylindrical screen 11's left side is provided with snap ring 19, second cylindrical screen 12's right side terminal surface is provided with draw-in groove 18, snap ring 19 extrusion joint is in the inner chamber of draw-in groove 18, utilize snap ring 19 to peg graft with the extrusion fit of draw-in groove 18, thereby make first cylindrical screen 11 drive second cylindrical screen 12 and rotate, and then make the corner crushed aggregates in first cylindrical screen 11 and the second cylindrical screen 12 realize the centrifugation and rotate, under centrifugation pivoted shake, the dust falls and leaves in the clearance between the inner wall of second cylindrical screen 12 and first rotor 5, the suspension is raised to the fibre in the inner chamber.

The left side of the inner cavity of the first rotary drum 5 is provided with a dust collection plate 13, the left side of the first rotary drum 5 is provided with an air pump 15, the right side end face of the dust collection plate 13 is provided with a suction head 17 distributed in a multilayer circumferential array, the left side of the dust collection plate 13 is communicated with the air pump 15 through a conduit, and the internal air is sucked away by utilizing the cooperation of the air pump 15 and the suction head 17, so that suspended fibers and dust are cleaned, and the purpose of cleaning corner crushed aggregates is achieved.

The front end of the driving support 4 is provided with a driving motor 27, the outer walls of the front side and the rear side of the first rotary drum 5 and the second rotary drum 6 are respectively rotatably installed on a pair of driving supports 4 which are bilaterally symmetrical, the front ends of the first rotary drum 5 and the second rotary drum 6 are respectively rotatably connected with the driving motor 27, and the driving motor 27 is utilized to realize the relative rotation of the first rotary drum 5 and the second rotary drum 6, so that the purpose of inclined discharging is realized.

The lower extreme between left socle 1 and the right branch frame 2 is provided with retrieves frame 23, retrieves frame 23 and is located first

rotary drum

5, 6 hookup location of second rotary drum under, and retrieves the up end of frame 23 and is located the lower extreme of buffering support 3, utilizes to retrieve frame 23 and realizes retrieving the crushed aggregates after the cleanness.

Fixed welding in terminal surface right side around first rotary drum 5 has a pair of second ear seat 30, fixed welding in terminal surface left side around the second rotary drum 6 has first ear seat 28 corresponding with second ear seat 30, transversely be provided with screw rod 29 on the first ear seat 28, screw rod 29 is pegged graft on second ear seat 30, extrude fixed connection through the nut between screw rod 29 and the second ear seat 30, utilize grafting between second ear seat 30 and the first ear seat 28, thereby realize first rotary drum 5, position between the second rotary drum 6 is pegged graft, cooperation screw rod 29 and the cooperation of nut, it is fixed to realize connecting.

Buffer bracket 3 is located first rotary drum 5, under second rotary drum 6, buffer bracket 3's upper end is provided with backing plate 9, backing plate 9's upper end closely laminates at first rotary drum 5, the lower extreme outer wall of second rotary drum 6, backing plate 9's lower terminal surface left and right sides symmetry is provided with a pair of free bearing 25, jib 24 is installed in the vertical downwardly rotating of lower extreme of free bearing 25, utilize the free bearing 25 to realize the rotation installation of jib 24, utilize backing plate 9 to realize first rotary drum 5, the laminating of 6 lower extreme outer walls of second rotary drum.

The lower extreme of jib 24 runs through the upper end diaphragm of buffering support 3 and extends to the below of diaphragm, the interlude outer wall of jib 24 has cup jointed spring 26, spring 26 is vertical to be installed between backing plate 9 and buffering support 3, the lower terminal surface at backing plate 9 is supported to the upper end of spring 26, the up end at buffering support 3 is supported to the lower extreme of spring 26, utilize spring 26 to realize first

rotary drum

5, 6 lower extreme outer walls of second rotary drum support, thereby the extrusion force that the slope caused is rotated in the buffering, prevent that rotation angle from excessively causing and dropping.

The working principle is as follows: firstly, the sliding connection between the left support 1 and the right support 2 is realized by the sliding insertion of the sliding block 8 on the guide rod 20, the left-right sliding of the right support 2 is realized by the moving roller 22, and the stable transverse sliding is realized by the guide rod 20, so that the first rotary drum 5 and the second rotary drum 6 are separated relatively, and the piled crushed aggregates are placed in the first cylindrical screen mesh 11 and the second cylindrical screen mesh 12.

Then promote right branch frame 2 and make right branch frame 2 peg graft with left socle 1, utilize the extrusion fit grafting of snap ring 19 and draw-in groove 18, utilize swivel 16 to realize the left horizontal rotation installation of second cylinder screen cloth 12, utilize grafting between second ear seat 30 and the first ear seat 28 to realize the position grafting between first rotary drum 5, the second rotary drum 6, cooperation screw 29 and the cooperation of nut, the realization is connected fixedly.

Utilize centrifugal motor 10 to drive commentaries on classics board 14 and rotate, utilize commentaries on classics board 14 to drive first cylindrical screen 11 and rotate, thereby make first cylindrical screen 11 drive second cylindrical screen 12 and rotate, and then make the corner crushed aggregates in first cylindrical screen 11 and the second cylindrical screen 12 realize the centrifugation and rotate, under centrifugation pivoted shake, the dust falls and leaves in the clearance between the inner wall of second cylindrical screen 12 and first rotary drum 5, the fibre is raised and is suspended in the inner chamber, utilize the cooperation of air pump 15 and suction head 17, realize taking out the internal air and separate, thereby fibre and the dust to the suspension clear up, reach the purpose of clean corner crushed aggregates.

After the clearance, pull open left socle 1 and right branch frame 2, utilize driving motor 27 to realize first rotary drum 5 and the relative rotation of second rotary drum 6, thereby realize the purpose of slope unloading, utilize recovery frame 23 to realize retrieving the crushed aggregates after the cleanness, utilize free bearing 25 to realize jib 24's rotation installation, utilize backing plate 9 to realize first rotary drum 5, the laminating of 6 lower extreme outer walls of second rotary drum, utilize spring 26 to realize first

rotary drum

5, 6 lower extreme outer walls of second rotary drum support, thereby the extrusion force that the slope caused is rotated in the buffering, prevent that the turned angle from excessively causing and dropping.

The centrifugal motor 10 is of the following model: centrifugal motors of the DF type; the driving motor 27 adopts a common three-phase asynchronous motor; the air pump adopts the model as: JYCQB's double-cylinder silent pump.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a textile fabric processing is with crushed aggregates recovery unit, includes left socle (1) and right branch frame (2), its characterized in that: a group of transversely extending driving supports (4) are symmetrically arranged on the front side and the rear side of the upper end of the left support (1) and the right support (2), a buffer support (3) is vertically and upwards arranged on the lower ends of the left support (1) and the right support (2), a fixed base (21) is vertically arranged on the lower end face of the left support (1), a pair of bilaterally symmetrical moving rollers (22) is arranged on the lower end of the right support (2), a first rotary drum (5) is arranged in the middle of the driving supports (4) on the upper end of the left support (1), a second rotary drum (6) is arranged in the middle of the driving supports (4) on the upper end of the right support (2), a second cylindrical screen (12) is sleeved in an inner cavity of the first rotary drum (5), a dust collection plate (13) is arranged on the left side of the inner cavity of the first rotary drum (5), an air pump (15) is arranged on the left side of the first rotary drum (, the left side of the dust collection plate (13) is communicated with an air pump (15) through a conduit, the right side of the inner cavity of the second rotary drum (6) is provided with a rotary plate (14), the right side of the second rotary drum (6) is provided with a centrifugal motor (10), the right side of the rotary plate (14) is rotatably connected with a motor rotating shaft of the centrifugal motor (10), and the left side of the rotary plate (14) is transversely and fixedly welded with a first cylindrical screen (11);

buffer bracket (3) are located first rotary drum (5), second rotary drum (6) under, and the upper end of buffer bracket (3) is provided with backing plate (9), the upper end of backing plate (9) closely laminates at the lower extreme outer wall of first rotary drum (5), second rotary drum (6), and the lower terminal surface left and right sides symmetry of backing plate (9) is provided with a pair of free bearing (25), jib (24) are installed in the vertical downward rotation of lower extreme of free bearing (25), the lower extreme of jib (24) runs through the upper end diaphragm of buffer bracket (3) and extends to the below of diaphragm, and spring (26) have been cup jointed to the interlude outer wall of jib (24).

2. The scrap recovery device for textile fabric processing according to claim 1, wherein: the upper end of a driving support (4) at the upper end of the left support (1) is provided with a fixed block (7), the upper end of the driving support (4) at the upper end of the right support (2) is provided with symmetrical sliding blocks (8) in the front and back direction, a pair of symmetrical guide rods (20) in the front and back direction is transversely arranged on the fixed block (7), and the sliding blocks (8) are inserted into the outer walls of the guide rods (20) in a sliding mode.

3. The scrap recovery device for textile fabric processing according to claim 1, wherein: a gap is reserved between the second cylindrical screen (12) and the inner wall of the first rotary drum (5), a rotary ring (16) is arranged on the left side of the second cylindrical screen (12), and the rotary ring (16) is rotatably arranged on the end face of the right side of the dust collection plate (13).

4. The scrap recovery device for textile fabric processing according to claim 1, wherein: the front end of the driving support (4) is provided with a driving motor (27), the outer walls of the front side and the rear side of the first rotary drum (5) and the second rotary drum (6) are respectively rotatably installed on a pair of driving supports (4) which are bilaterally symmetrical, and the front ends of the first rotary drum (5) and the second rotary drum (6) are respectively rotatably connected with the driving motor (27).

5. The scrap recovery device for textile fabric processing according to claim 1, wherein: the left side of first cylinder screen cloth (11) is provided with snap ring (19), the right side terminal surface of second cylinder screen cloth (12) is provided with draw-in groove (18), snap ring (19) extrusion joint is in the inner chamber of draw-in groove (18).

6. The scrap recovery device for textile fabric processing according to claim 1, wherein: the fixed welding in terminal surface right side has a pair of second ear seat (30) around first rotary drum (5), the fixed welding in terminal surface left side has first ear seat (28) corresponding with second ear seat (30) around second rotary drum (6), transversely be provided with screw rod (29) on first ear seat (28), screw rod (29) are pegged graft on second ear seat (30), extrude fixed connection through the nut between screw rod (29) and second ear seat (30).

7. The scrap recovery device for textile fabric processing according to claim 1, wherein: the lower extreme between left socle (1) and right branch frame (2) is provided with retrieves frame (23), retrieve frame (23) and be located first rotary drum (5), second rotary drum (6) hookup location under, and retrieve the up end of frame (23) and be located the lower extreme of buffering support (3).

8. The scrap recovery device for textile fabric processing according to claim 1, wherein: the spring (26) is vertically arranged between the backing plate (9) and the buffer support (3), the upper end of the spring (26) abuts against the lower end face of the backing plate (9), and the lower end of the spring (26) abuts against the upper end face of the buffer support (3).